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8/8/2019 Mikuni Tuning Manual for HSR42_45 Carbs
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TM
Tuning ManualFor
HSR42/45 CARBURETORS
Revised 5/10/00
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TM-2
Your Mikuni HSR is fitted with the tuning parts wefound to work with the great majority of engine perfor-
mance modifications. However, the large number ofdiffering exhaust systems and cams available makes it
impossible to accommodate all possible combinationswith one carburetor set-up. Your HSR will almost cer-
tainly run correctly on your engine without exchangingany parts. But, if it doesnt, you may alter its tuning tosuit your engines needs by following this guide.
Some exhaust system designs strongly interfere withcarburetor tuning. For instance, it is very difficult to get
smooth and responsive carburetion through the entirerpm range with straight pipes and completely open
exhausts. In addition, very small volume, small diametermufflers are often seen by the engine as straight pipesand present the same tuning difficulties.
Very long duration cams often cause relatively poor
running below about 3,000 rpm, depending upon theindividual cams intake valve closing point. Such camscause reverse airflow out the mouth of the carburetor
(often called: reversion or stand-off) that can bemistaken for a carburetor tuning problem.
Harley-Davidson Screamin Eagle performance parts
are proven and predictable. If you have any doubts abouta particular exhaust system, air cleaner or ignition, you
may substitute the standard Harley Screamin Eagleparts as a reality check.
When re-tuning is required, it usually involves smallalterations to the idle and/or main system. The followingparagraphs supply enough detail information to make
such changes an easy matter for an experiencedmechanic.
Finally, please note that there is simply no point inattempting to tune any carburetor unless the engine is
sound and in a good state of tune. If you have anydoubts about the general condition of your engine, haveit checked by your dealer or an experienced mechanic
before attempting to fine-tune your new Mikuni carbure-tor.
AIR LEAKS:
We have found that a certain percentage of Harley-
Davidson Evo and Twin Cam engines have minor airleaks between the manifold and heads. The leaks affectair/fuel mixtures at low throttle settings and can be
troublesome at idle. For best performance, it is importantthat you test for such leaks and eliminate them if any are
found.It is easy to test for intake manifold air leaks: With the
engine warm and idling, spray WD-40 around thejunctions of the manifold, carb and heads. If the enginechanges from its steady idle, if it surges, misses, etc
then there is an air leak that must be corrected if theengine is to run its best.
Because of the frequency of air leaks, we recommendthat you replace all three manifold seals when you install
your new Mikuni carburetor. These parts are available fromany Harley dealer.
If you lubricate the seals just before installation, theywill seat more smoothly and are less likely to develop
leaks. Liquid dish detergent works well. WD40 is also agood choice but evaporates quickly.
It is important that the manifold be aligned before the
lubricant sets or evaporates. Otherwise, the parts maystick to the seals, which, in turn, can cause leaks when the
parts are moved into alignment.
For the quickest and most accurate results when fine-tuning
your HSR, we recommend usingwitnessmarks on the throttle
grip and throttle housing. Use masking tape on the grip and anindicator mark on the throttle housing. Mark the tape inthrottle increments from idle to full throttle. You can then identifythe throttle opening where a tuning change may be required and
then adjust the correct tuning components.
Figure: T1
HSR TUNING SYSTEMS:
The HSR42 carburetor is divided into four interdepen-dent systems:
1. The choke system2. The idle system
3. The main system4. The accelerator pump system
Each of these systems has its major effects in a
different throttle range. While there may be some overlap,each system can generally be treated as though it is
completely responsible for its range of throttle settings.Three of the systems have replaceable components that
allow fine-tuning should the need arise.
Tu n i n g the HSR
NOTE
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Figure: T2
TUNING THE MAIN SYSTEM
JET NEEDLE (1/8 1/4 throttle)The straight diameter portionof the jet needle controls
the mixture from just above idle to approximately throttle. If the mixture is too rich or too lean in this throttle
range, the needle will need to be exchanged for a larger or
smaller one. HSR jet needles are available in four sizes.Only the diameter of the straight part of the four jetneedles differ. The richest is the -95 and -98 is leanest.
LEAN CONDITION:If the needle is too lean (large in diameter), part throttle
acceleration will be flat. There may also be some detona-tion during part throttle acceleration from low rpm, (al-
though this may have other causes). A lean needle alsoresults in an abnormally slow warm-up.
If any of these conditions exist, install a one-size smalle
needle and compare the performance
RICH CONDITION:While a black, sooty spark plug is a sure sign of rich-
ness; there are more subtle signs. If your engine respondscrisply at low throttle openings when it is cold, chances arethe needle is one size smaller than it needs to be. This
assumes, of course, that the idle mixture is correctlytuned.
Poor fuel mileage is another sign of an over-rich condition.Because of the way most of us ride our Harleys, that
richness is usually the result of a jet needle that is toosmall (rich). The color of the end of the exhausts is a sign
of mixture strength. Dark gray with some black is normalfor todays lead-free gasolines.
THE CHOKE SYSTEM:
The choke systems purpose is to provide the rich air/fuel mixture an engine needs to start and run reliably
when it is cold. There are no replaceable tuning parts inthe HSR42/45 choke mechanism.
The choke is designed to work correctly with the
throttle closed. Opening the throttle stops the action ofthe choke.
Make sure that the stock Harley-Davidson choke cableis fully seated in the metal elbow at the carburetor end of
the cable assembly (see installation instructions). Harley
s cable is stiff and can fail to fully seat in the elbow. Thiscondition results in poor mileage and a poor idle.
The Mikuni choke cable is more flexible and less likelyto jamb. Still, it is best to check to be sure the cable is
installed correctly.
TUNING THE IDLE SYSTEM: (idle 1/8 throttle)
The HSR42/45 idle system has two tunable compo-nents: the air screw and the pilot jet. The air screws
purpose is to fine-tune the idle mixture. The pilot jetcontrols the total amount of fuel passing through the idle
system. It can be changed to make larger adjustments tothe idle mixture strength.
The air mixture screw is set at two turns out from thefactory. This is the position we have found to be rightmost of the time. If the screw position has been altered,
gently bottom it and re-open it two full turns.Next, ride the bike until its engine reaches normal
operating temperature. This may require several miles athighway speeds.
With the motorcycle vertical and the engine idling
near 1,000 rpm, adjust the air mixture screw in slowlyuntil the idle either slows or becomes irregular, then
begin turning the screw out until the engine again slowsor again begins to idle irregularly. Count the number of
turns between the two positions. Set the air screw mid-way between these too-rich and too-lean positions.
Use the Idle Adjuster Screw to re-set the idle speed.If the engine starts to get too hot during the adjust-
ment procedure, the resulting idle mixture will probably
be on the lean side of correct. If you have a large fan,use it while adjusting the mixture. If you do not have one,
you may need to take time out for a short ride to cool theengine back to normal temperature.
1. If the best idle is achieved with the air screw less thanone turn out, the pilot jet is too small and should be
exchanged for a larger one.2. If the engine speed does not slow after two-and-a-half
turns out, the pilot jet is too large and should be ex-
changed for a smaller one.
NOTE
NOTE
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TM-4JET NEEDLE (1/4 - 3/4 throttle)
The tapered portionof the jet needle begins to rise out
of the needle jet at about throttle. From that point untilthe main jet takes over near throttle, the jet needle taper
is the main influence on mixture strength.When testing, consider the rpm effects of any acces-
sory cam you may have installed. Long duration cams tendto perform poorly below some critical minimum rpm. If youattempt to test below this rpm, the engine may seem soft,
flat and unresponsive. No carburetor can compensate forthe engine being off the cam.
All jet needle and main jet testing should be done withthe engine near the middle of its rpm range, but high
enough to be on the cam. With the engine at operatingtemperature, accelerate at throttle in third or fourth gear.
LEAN CONDITION:If acceleration seems soft or flat and the engine is slow
to respond when the throttle is quickly opened from the to the position, the mixture is too lean. Raise the needle
one notch and repeat the test (refer to page: TM6).
RICH CONDITION:If acceleration is crisp but the engine hesitates or
staggers as the throttle is quickly shut down from to
throttle, the mixture is too rich. Lower the needle one notchand repeat the test. The needle will be correct when
acceleration is crisp at mid-rpm yet the engine does notload up during throttle shut down.
See theHow Tosection at the back of this manual for jet
needle adjustment and removal procedures.
Please do not disassemble the throttle lever linkage. It isnot normally necessary to remove the bolt to change positionof the jet needle. However, if you do remove the throttle shaft
bolt, be certain that you:
1. Apply a drop of blue LoctiteTM to the threads.2. Torque the bolt to 18in./lb.
3. Replace the tab washer and bend it up until it is flushagainst one of the bolt head flats.
MAIN JET: full throttle
The main jet controls fuel flow from to full throttle.
It is the last you need tune and is the easiest to getright.
METHOD ONE:An accurate method for choosing the correct main
jet is to accelerate at full throttle between two points andnote the speed at the second point.
1. Select markers that are far enough apart so theengine gains about 2,000 rpm (in third or fourth
gear) between the two.2. When you pass the first marker, quickly roll the
throttle fully open and note the speed as you pass
the second marker.3. The jet that gives the highest speed is the correct
one. This method is simple but effective.
METHOD TWO:1. The best method is to use a dynamometer. The
main jet than produces the most power is the
correct one. If two jets deliver the same power, usethe smaller one.
TUNING THE ACCELERATOR PUMP:
The accelerator pump has two adjustments andone replaceable tuning part, the accelerator pump
nozzle, that can be adjusted or changed to refine theperformance of the accelerator pump system.
The accelerator pump injects a metered and adjust-able amount of fuel into the engine when the throttle is
opened from or near its closed position.The beginning point of the pump stroke is adjusted
with screw #1 on the white plastic pump lever. To start
the pump sooner (smaller throttle opening), back thescrew out. To start it later, turn the screw in.
The end of the accelerator pump stroke is adjustedby screw #2 located on top of the carburetor just behind
the pump lever. Best performance is generally achievedwhen the pump stroke ends before 2/3 throttle.
The accelerator pump nozzle size (#50, #60 or #70)
determines the rate at which fuel is delivered to thethroat of the carburetor. A larger nozzle delivers fuel at a
higher rate than a smaller nozzle.
WARNING
NOTE
Figure: T3
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Figure T4: Accelerator Pump Adjusters
STANDARD SETTINGS & ADJUSTMENTS:The standard nozzle size is #70. If the engine seems
to run too rich when the throttle is first opened thenozzle may be too large and the fuel delivery rate toohigh. In this case, fit a smaller nozzle.
The #1 screw is normally adjusted to establisha gap of about 2mm (about the thickness of a nickel)
between the white plastic lever and pump rod end. Ifthere is a hesitation just off idle, reduce the gap.
The #2 screw is normally adjusted to stop the pumpaction at about 2/3 throttle. If you tend to accelerate fromlow speeds in a tall gear, you may need to adjust the
pump for a longer stroke. If you tend to downshift beforeaccelerating from low speeds and/or have a lighter bike
then you might consider shortening the pump stroke.
For best results, the accelerator pump nozzle should bepointed directly at the jet needle. The nozzle is held in place
by the friction of an O-ring and can be turned easily with apair of long nosed pliers. Nozzle adjustment should be made
with a minimum of pump strokes to avoid flooding the engine.
SERVICING:
There are few moving parts in the HSR series
carburetors and they do not require frequent servicing.However, here are a few suggestions that, if followed,
will assure good performance season after season.1. If the motorcycle is to be stored for any length of
time, the carburetor float bowl should be drained.
2. The float bowl drain plug (main jet access) should beremoved periodically and cleaned of any sediment
that may have accumulated during long periods ofuse.
3. DO NOT drill or modify any part of this carburetor forany reason, as the result will surely be more prob-
lems.
4. If a jet or passage does become plugged, use only
carburetor cleaner and compressed air. DO NOT pusha drill or any other object through the jet or passage to
clean them.
FLOAT LEVEL ADJUSTMENT:
1. Invert the carburetor and remove the float bowl.2. The float assemblys actuator tab should just contact
the Needle Valve assembly when the bottom of the
float is 18mm from the carburetor bottom surface asshown.
3. Bend the actuator tab to adjust float level.
Figure T5: Float Level
Check the condition of the float bowl O-ring. If it is worn ordoes not not fit in the groove correctly, replace it.
MIKUNI OR SCREAMIN EAGLE AIR FILTER:Mikuni, Screamin Eagle and many others are made by
K&N and do not need frequent cleaning. A cleaninginterval of once a year or 5,000 miles is often enough.
However, if you ride in very dusty conditions, clean thefilter when it is obviously dir ty over 50% or more of itssurface.
1. Tap the element to dislodge embedded dirt; then gentlybrush with a soft bristle brush.
2. Roll the filter element in a large shallow pan of K&N airfilter cleaner (Simple Green, 409, etc) with the depth
set to of a pleat. Remove immediately and let sit forapproximately 10 minutes. IMPORTANT: Do not usegasoline or cleaning solvent to wash the filter element,
as this will damage the filter.
NOTENOTE
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TM-63. Rinse the element with low-pressure water. Always
flush from the inside of the filter out to ensure thatdirt is washed out of the filter and not into it. IMPOR-
TANT: Air dry only; do not use compressed air.4. After the filter is completely dry, re-oil sparingly.
Apply K&N filter oil with one pass per pleat. Wait 10
minutes and re-oil any white spots.
HOW TO REMOVE & REPLACE :
JET NEEDLE:1. Back out the idle speed adjuster five or six turns
to ensure that the throttle valve is fully bottomed.
2. Remove the three top cover screws and removethe cover.
3. Loosen the Allen screw located on the slide(long 2.5mm Allen wrench).
4. Swing the clip aside.5. With the slide bottomed, remove the jet needle.
You may use a long-nose pliers or tweezers for
this. Be sure to save the small plastic washerunder the jet needle clip.
6. To reassemble, reverse steps 1. through 5. Besure to snug the Allen screw and replace the
plastic washer under the jet needle clip.
HOW TO ADJUST:
JET NEEDLE CLIP:1. Remove the jet needle per previous instructions.2. Place the open end of the jet needle clip against a
hard surface.3. Cover the clip area with your hand (to prevent loss of
the clip) and press the needle down to snap the clip
off the needle.4. Place the clip in the desired groove on the needle.
5. Place the clip against the hard surface with the openend up.
6. Again cover the clip area with your hand and pressdown on the needle to snap the clip into place.
MAIN JET:1. Turn the fuel petcock to the OFF position.
2. Use an 11/16 or 17mm wrench to loosen & removethe drain bolt.
3. Use a good fitting slot type screwdriver to removethe main jet.
4. Reverse steps 1 through 3 to replace the main jet.The jet need only be hand-tight; do not over tighten.
PILOT JET:1. Turn the fuel petcock to the off position.
2. Remove the four screws retaining the float bowl (#2Phillips). Remove the float bowl.
3. Use a good fitting slot type screwdriver to remove
the pilot jet.4. To reinstall the pilot jet, Reverse steps 1 through 3.
Start the jet by hand, as the threads are small andrelatively fragile. Do not over tighten; snug is enough.
ACCELERATOR PUMP NOZZLE:
1. Turn the fuel petcock to the OFF position.2. Remove the four screws retaining the float bowl (#2
Phillips). Remove the float bowl.3. Use your finger to push the nozzle out of the throat of
the carburetor (see exploded view).
4. Push in new nozzle/O-ring assembly. Aim the nozzletoward the jet needle.
5. Re-install the float bowl.
6. Turn the fuel petcock on and work the throttle severaltimes to prime the accelerator pump.7. Use long-nose pliers to turn the nozzle until the fuel
stream points to the middle of the carburetor throat.
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OVERFLOW: Fuel runs out of carburetor throughoverflow tube on bottom of float bowl, from vent
fitting on side of carburetor or from body/float bowljunction.
Foreign matter around fuel needle valve & seat:Includes paint flakes, rust or bits of fuel hose.
Stock or clogged tank vent:
Factory one-way tank vents can cause pressure intank. Clogged tank vent can result in fuel starvation.
Deteriorated gasoline causing sticking fuel needle valve.Loose float bowl or damaged float bowl packing.
POOR FUEL ECONOMY (at normal cruise speeds):
Mikuni installations normally deliver fuel economyvery close to that of the completely stock Harley.
Choke cable routing:
The choke cable must be fully bottomed in the metalelbow (at carburetor end). There must be some
perceptible free-play in the choke knob.Stock or clogged tank vent:
Many current stock Harley tank vents do not allowgasses to leave the tank and pressure may developfrom engine heat. Open the vent to allow two-way air
flow. Clogged tank vent can result in fuel starvation ifthe vent valve becomes stuck or partially blocked.
Fuel/Air mixtures:Incorrect jet needle or pilot jet for tuning set-up or
altitude. The speed range in which mileage is usuallyrecorded is controlled by the straight portion of the
jet needle and pilot jet. The needle taper and main
jet size seldom have an effect at normal cruisingspeeds.
Loose jets:A loose pilot or main jet can affect fuel mileage.
POOR IDLE:
Irregular idle speed, too rich or too lean.It is common for Evo series engines to have intakemanifold air leaks. Air leaks result in an irregular idle
that does not respond to mixture screw adjustment.Idle mixture adjustment:
The pilot air adjusting screw is not adjusted correctlyresulting in a too rich or too lean idle mixture setting
(see p. TM3).Incorrect pilot jet:
A jet that is too large or too small.Loose jets:
A loose pilot or main jet can affect idle performance.
POOR PART-THROTTLE (1/81/4) PERFORMANCE
OR MILEAGE:Overly rich or lean at normal cruise speeds, detona-tion at part-throttle.
Choke cable routing: (see p. TM3)Incorrect jet needle:
A too-rich or too-lean jet needle for engine tuningset-up or for operating altitude can cause poor
mileage. Highly tuned engines often require leaner jetneedles as do motorcycles operating at high altitude.
Stock or clogged tank vent:Factory one-way tank vents can cause pressure in
tank. Clogged tank vent can result in fuel starvation.Air leak:
It is common that Evo series engines have intake
manifold air leaks. An air leak can lead to a leanrunning condition and even detonation at part throttle.
Loose jets:A loose main jet can result in an overly rich mixture.
POOR FULL-THROTTLE PERFORMANCE: Detonation,
flat acceleration, misfiring.Clogged tank vent:
Factory one-way tank vents (located in the tank cap on
most models) sometimes fail to allow enough air intothe tank to replace fuel flow at high throttle openings.
The result is a partial vacuum and fuel starvation.Fuel flow restriction:
Clogged fuel filter or fuel petcock screen (located insidetank) can result in fuel starvation.
Incorrect main jet size:
A too large or too small main jet can lead to poor poweroutput.
Clogged main jet:A partially clogged main jet may allow enough fuel flow
for part-throttle operation and yet starve the engine atfull throttle.
Dirty air filter:
Stock air filters can become dirty enough to restrict airflow and power output.
BACKFIRE THROUGH CARBURETOR:
When the engine is cold only (choke off):This can be considered normal. A cold engine does not
vaporize fuel completely which can result in an overly-lean mixture and backfiring through the carburetor.
Long duration cams:
Cams with late intake valve closing points encouragebackfiring at low rpm.
Exhaust systems:Some very open or incorrectly designed exhaust
systems encourage backfiring. Stock length anddiameter header pipes together with typical small slip-
ons, like those furnished by Harley-Davidson, typicallydo not have this problem.
Incorrect accelerator pump adjustment:
If the accelerator pump adjustment is set to start toolate, backfiring may occur due to an overly lean mixture
just off idle.
BACKFIRING IN EXHAUST SYSTEM when the throttle is
closed, especially noticeable from high rpm, is notcaused by lean mixtures, although lean mixtures can
contribute to its intensity. This is a normal conditionwhen using high performance exhaust systems.
TROUBLE SHOOTING GUIDE:
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TMOpen exhaust system:
High performance mufflers with large exit area or low-restriction baffles.
Air leak in exhaust system: Air entering at the junctionof the header pipes and mufflers can cause poppingupon decceleration.
Ignition failure: Out-of-time ignition together with misfir-ing may lead to loud backfiring. Such backfiring
usually occurs irregularly and at large throttle
openings.
HSR AccessoriesOptional Tuning Components andAccessories for HSR CarburetorsThese parts may be ordered through your local Mikuni dealer
Low & High Speed Jets:
VM28/486-(Size)Pilot (Idle to ), increments of 2.5
(Standard: 25, normal range: 20 to 35)
N100.604(Size)Main ( to Full Throttle), increments of 2.5(Standard: 160, normal range: 150 to 180
Jet Needles (Mid-Range: 1/8 to 3/4)HSR42 HSR45
Richer J8-8DDY0195 J8-8CFYO2-95
Richer J8-8DDY0196 J8-8CFYO2-96Standard J8-8DDY0197 J8-8CFYO2-97Leaner J8-8DDY0198 J8-8CFYO2-98
Standard HSR42 Jet Needle straight diameter is 2.97 mm.
This portion of the needle affects tuning from idle to approxi-
mately throttle opening.
Accelerator Pump NozzlesLeaner TM42/1150
Std. for Sportster kits TM42/1160Std. for Big Twins TM42/1170
Mikuni Jet KitJet Tuning Service Kit for HSR42/45 . . . .. KHS025Jet Kit Contains: 18Main Jets (2 each 150 thru 170)
10Pilot Jets (2 each 22.5 thru 35)3Needles (1 each95,96,97)
2#60 Pump Nozzle4Needle E-Ring Clips & Washers1Plastic Box
HSR42/45 Carburetor Rebuild KitCarb Rebuild Kit . . . . . . . . . . . . . . ......KHS016See exploded view drawing for kit contents.
Short Idle ScrewIdle Adjuster Screw (Short) . . . .... 990-605-065(See item #59a in exploded view of carb.)
Do not modify idle screw or any of its component pieces. If the
screw is removed, be sure it is re-installed with the componentsin place as illustrated in exploded view.
NOTE
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Mikuni American Corporation
8910 Mikuni AvenueNorthridge, CA
91324-3496